RECONSTRUCTING THE HOLOCENE DEVELOPMENT OF LAKE CHAIKA AS AN EXAMPLE OF WETLAND FORMATION WITHIN THE SAND SPIT ENVIRONMENT DYNAMICS: A CASE STUDY FROM THE CURONIAN SPIT, SOUTHEASTERN BALTIC, RUSSIA

封面

如何引用文章

全文:

详细

The paper provides original data that shed light on the formation dynamics of Lake Chaika, which is situated in the central part of the Curonian Spit and is the only large water body in the sand spits of the southeastern Baltic. Based on the multi-proxy approach, incl. investigation of the lithological structure of the bottom sediment cores, loss-on-ignition analysis, diatom analysis, study of macrofossil remains, and radiocarbon dating, we revealed that Lake Chaika was formed already in historical time, around 200 years ago. Before this period, the lake kettle, presumably, has not submerged during the Littorina transgressions, enabling the terrestrial development of the ecosystems on the moraine protrusion. During the mid-late Holocene (6700–150 cal BP), this depression was occupied by the peat-forming fen and alder carr communities. The peat deposits are separated from the overlying layers of gyttja by the thin sand horizon. We consider it a time marker for the so-called “sand disaster”, which occurred on the territory of the Curonian Spit in the 18th century (≈1700–1800). The change in the hydrological regime of the lake launched the ecosystem shifts during the last two centuries: from the water body to a wetland and vice versa. It is stated eight formation phases of the lake’s ecosystem: the terrestrial development without wet habitats (8900–6700 cal BP), the period of alder carrs (6700–3400 calBP), the sedge fen period (3400–450 cal BP), the period of inundated forest (1500–1700 AD), the “sand disaster” period (1700–1800 AD), the period of eutrophic water body (1800–1900 AD), the period of terrestrialised wetland (1900–1950 AD), and the period of secondary development of eutrophic water body (after 1950 AD).

作者简介

T. Napreenko-Dorokhova

P.P.Shirshov Institute of Oceanology of the Russian Academy of Science; Immanuel Kant Baltic Federal University

Email: tnapdor@gmail.com
ORCID iD: 0000-0002-4883-3250
Scopus 作者 ID: 57195555463
Researcher ID: L-3361-2016
candidate of geographical sciences 2016

A. Ludikova

Institute of Limnology Russian Academy of Sciences

Email: ellerbeckia@yandex.ru
ORCID iD: 0000-0001-6022-2455
candidate of geographical sciences 2008

M. Napreenko

P.P.Shirshov Institute of Oceanology of the Russian Academy of Science; Immanuel Kant Baltic Federal University

Email: maxnapr@gmail.com
ORCID iD: 0000-0002-0889-7276
Scopus 作者 ID: 57192004687
Researcher ID: P-5477-2017
candidate of sciences in biology 2002

I. Sosnina

P.P.Shirshov Institute of Oceanology of the Russian Academy of Science

Email: iraco05@gmail.com
ORCID iD: 0000-0002-3616-933X
graduate student of geographical sciences 2021

参考

  1. Bronk Ramsey, C. (2021), OxCal Program v4.4, Radiocarbon Accelerator Unit, https://c14.arch.ox.ac.uk/oxcal.html, (accessed 2021-02-27).
  2. Dam, H., A. Mertens, and J. Sinkeldam (1994), A coded checklist and ecological indicator values of freshwater diatoms from the Netherlands, Netherlands Journal of Aquatic Ecology, 28(1), 117–133, https://doi.org/10.1007/BF02334251.
  3. Damušyte, A. (2011), Post-glacial geological history of the Lithuanian coastal area, phdthesis, Vilnius University.
  4. Davydova, N. N. (1985), Diatoms as indicators of natural environments in water bodies during the Holocene, 244 pp., Nauka, Leningrad (in Russian).
  5. Dombrovskaya, A. V., M. M. Koreneva, and S. N. Tyuremnov (1959), Atlas of Plant Remnants Found in Peat, 90 pp., State Energy, Moscow-Leningrad (in Russian).
  6. Gerb, M. A., E. K. Lange, M. V. Lyatun, Yu. Yu. Polunina, E. E. Yezhova, and N. V. Chibisova (2014), Assessment of the ecological state of lake Chaika (Curonian Spit) by hydrobiological and hydrochemical parameters, KSTU News, 34, 52–60 (in Russian).
  7. Gubareva, I. Yu., and M. A. Gerb (2014), Hygrophilous flora of lake Chaika (Curonian Spit National Park), in Problems of studying and protection of natural and cultural heritage of the Curonian Spit National Park, vol. 10, pp. 25–44, Immanuel Kant Baltic Federal University, Kaliningrad (in Russian).
  8. Juggins, S. (2014), C2 Version 1.7.6., https://www.staff.ncl.ac.uk/stephen.juggins/software/C2Home.htm.
  9. Katz, N. Y., S. V. Katz, and E. I. Skobeeva (1977), Atlas of Plant Remnants in Peat, 376 pp., Nedra, Moscow (in Russian).
  10. Kazakauskas, V., and A. Gaigalas (2004), Varvometric estimation of the duration of Daniglacial glaciolacustrine sedimentation in Lithuania, Geologija, 48, 44–54.
  11. Korotkina, M. Y. (1939), Botanical analysis of peat, in Methods of peat-bog investigation. Part 2. Laboratory and desk works, pp. 5–59, The People’s Commissariat for Agriculture of the RSFSR, Moscow (in Russian).
  12. Kuzmin, S. Yu. (2006), Assessment of the ecological state of the lakes of the Curonian Spit by hydrobiological methods, in Problems of studying and protection of natural and cultural heritage of the Curonian Spit National Park, vol. 4, pp. 95–102, Immanuel Kant Baltic Federal University, Kaliningrad (in Russian).
  13. Lasberg, K., and V. Kalm (2013), Chronology of Late Weichselian glaciation in the western part of the East European Plain, Boreas, 42(4), 995–1007, https://doi.org/10.1111/bor.12016.
  14. Mager, F. (1938), Die Landschaftsentwicklung der Kurischen Nehrung, 240 pp., Gräfe und Unser Velag, Königsberg (in German).
  15. Matyushenko, V. P. (1939a), Identification of sedges in peat by radices, in Methods of peat-bog investigation. Part. 1 Field study, pp. 93–102, The People’s Commissariat for Agriculture of the RSFSR, Moscow (in Russian).
  16. Matyushenko, V. P. (1939b), Identification of the arboreal remnants in peat, in Methods of peat-bog investigation. Part. 1 Field study, pp. 103–115, The People’s Commissariat for Agriculture of the RSFSR, Moscow (in Russian).
  17. Napreenko, M. G., A. V. Orlov, T. V. Napreenko-Dorokhova, D. A. Subetto, and I. A. Sosnina (2020), Preliminary data on formation and depositional environments of lake Chaika in the central part of the Curonian Spit (Kaliningrad region, Russia, South-Eastern Baltic), IOP Conference Series: Earth and Environmental Science, 438(1), 012,019, https://doi.org/10.1088/1755-1315/438/1/012019.
  18. Paul, K. H. (1944), Morphologie und Vegetation der Kurischen Nehrung: Gestaltung der Bodenformen in ihrer Abhängigkeit von der Pflanzendecke, Nova acta Leopoldina, vol. 1, Dt. Akad.
  19. der Naturforscher. Piavtchenko, N. I. (1963), Peat decomposition degree and techniques of its estimation, 55 pp., Institute of Forest and Wood, SB of the USSR Academy of Sciences, Krasnoyarsk (in Russian).
  20. Reimer, P. J., W. E. N. Austin, E. Bard, A. Bayliss, et al. (2020), The IntCal20 Northern Hemisphere Radiocarbon Age Calibration Curve (0–55 cal kBP), Radiocarbon, 62(4), 725–757, https://doi.org/10.1017/RDC.2020.41.
  21. Rinterknecht, V. R., A. Bitinas, P. U. Clark, G. M. Raisbeck, F. Yiou, and E. J. Brook (2008), Timing of the last deglaciation in Lithuania, Boreas, 37(3), 426–433, https://doi.org/10.1111/j.1502-3885.2008.00027.x.
  22. Santisteban, J. I., R. Mediavilla, E. López-Pamo, C. J. Dabrio, M. Blanca Ruiz Zapata, M. José Gil García, S. C. no, and P. E. Martínez-Alfaro (2004), Loss on ignition: a qualitative or quantitative method for organic matter and carbonate mineral content in sediments?, Journal of Paleolimnology, 32(3), 287–299, https://doi.org/10.1023/B:JOPL.0000042999.30131.5b.
  23. Schlicht, O. (1927), Die Kurische Nehrung in Wort und Bild, 180 pp., Gräfe und Unser Velag, Königsberg (in German).
  24. Sergeeva, M. A. (2011), Peat: chemical analysis and basics of complex processing, 84 pp., Tomsk State University of Education, Tomsk (in Russian).
  25. Snoeijs, P. (1993), Intercalibration and Distribution of Diatom Species in the Baltic Sea, Volume 1, 130 pp., Opulus Press, Upsala.
  26. Stuiver, M., P. J. Reimer, and R. W. Reimer (2021), CALIB 8.2, http://calib.org, (accessed 2021-02-27).
  27. Tsibaliova, G. A., and S. Yu. Kuzmin (2009), Zooplankton of dune lakes of the Curonian Spit, Hydrobiology and ichthyopathology, pp. 124–131 (in Russian).
  28. Uścinowicz, S. (1999), Southern Baltic area during the last deglaciation, Geological Quarterly, 43(2), 137–148.
  29. Uścinowicz, S. (2006), A relative sea-level curve for the Polish Southern Baltic Sea, Quaternary International, 145–146, 86–105, https://doi.org/10.1016/j.quaint.2005.07.007.
  30. Witkowski, A., H. Lange-Bertalot, and D. Metzeltin (2000), Diatom Flora of Marine Coasts I. Iconographia Diatomologica, 925 pp., A. R. G. Gantner Verlag, Ruggell.

版权所有 © Napreenko-Dorokhova T., Ludikova A., Napreenko M., Sosnina I., 2024

Creative Commons License
此作品已接受知识共享署名 4.0国际许可协议的许可
##common.cookie##